Counting the Quanta of Sound Inside the Proton and Neutron

Collision of two bodies is usually accompanied by a snapping sound. The snap is produced by sound waves within the material that can also interact with the bodies.

Now it seems that, interaction (collision) of the fundamental particles to each other can generate acoustic waves inside a proton. These produced waves can propagate in space-time of the proton and interact with weak and strong interactions, quarks and gluons and generate vibration in quarks and the strong interaction field. Also, these waves propagate in moving boundary of quark–gluon and transmit across the boundaries and can affect to the interaction between quarks and gluons.

In this case, interaction of quanta of acoustic waves with the weak interaction may affect to the process of the beta decay and changing the flavor of quarks. On the other hand, a portion of energy of the quarks’ virtual sea in proton may be deduced by quantized sound waves which resulted from interaction of the fundamental particles with each other inside the proton.

In addition, the proton’s vibration can be increased, when the quantized sound waves interact with the strong interaction field inside the proton’s space–time. In this hypothesis, interaction of the quanta of sound on the spin may be a nice challenge in future.